Braking assembly

ABSTRACT

A vehicle braking assembly for a wheel includes a braking member arranged to move relative to the main body of the wheel between an inoperative position, a blocking member for preventing the braking member from moving to an operative position, a trigger device operable by coded message passed by a separate transmitter as electromagnetic radiation, and an EMR sensor.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a braking assembly, a security system associated thereto and a method of theft prevention, e.g. of wheeled vehicles such as shopping carriages or carts.

2. The Prior Art

European Patent No. 1 101 685 describes a vehicle braking assembly in which a braking member is activated by movement of the assembly over a magnetic material such that, when activated, the braking member moves to an operative position which serves to raise the wheel from the ground, hence preventing the vehicle from progressing beyond the magnetic material.

Other braking mechanisms are known which operate, for example, by radio signal, infra red signal, etc. However, such braking devices generally require a motor to operate the braking mechanism. One particular disadvantage of electronic braking devices is that they require a power source, for example, a battery, to operate the receiver and/or other electronic parts. For the systems to function properly, the battery must be constantly checked or monitored and replaced or recharged.

A further disadvantage of known braking assemblies and/or anti-theft systems is that, once triggered, they must be reset.

We have now developed a braking assembly which overcomes or mitigates some of the disadvantages of the prior art.

SUMMARY OF THE INVENTION

In particular, the braking assembly of the present invention is advantageous in that, inter alia, a generator may be provided to power electronic components and/or to recharge a solid state battery. Furthermore, the generator may be operably linked to one or more wheels of the vehicle and thus the user of the cart or carriage will provide the motion for the generator.

The braking assembly of the present invention is advantageous in that it may be used in a manner analogous to existing assemblies, that is, to prevent a cart or carriage from being moved from, for example, a retailer'parking lot. However, in addition, the assembly of the invention may prevent a cart or carriage from being removed from the store, hence preventing unpaid for goods from being removed from the store.

The braking assembly of the present invention may also be used on a variety of wheels, including conventionally known carriage or cart wheels, but also including wheels used on, for example, moving walkways. By the term wheel it is intended to include wheels as hereinbefore described castors, etc.

Thus, according to the invention we provide a vehicle braking assembly for a wheel which comprises a braking member arranged to move relative to the main body of the wheel between an inoperative and an operative position, blocking means adapted to prevent the braking member from moving to an operative position and trigger means adapted to activate the braking member to move to an operative position characterised in that the trigger means is operable by a coded message passed by a separate transmitter as electromagnetic radiation and the assembly is provided with an EMR sensor.

Any conventionally known brake foot may be used. However, preferentially, the brake foot is the same or similar to that described in European Patent No. 1 101 685 which is incorporated herein by reference.

The wheel may optionally be provided with a circumferential brake guide, e.g. in the form of a circumferential slot or groove.

Thus a wheel assembly of the invention may comprise a wheel or castor, supported in a fork and fixed using an axle fastening means, e.g. an axle bolt. The wheel may also be provided with a peripheral brake foot.

A variety of electromagnetic radiation (EMR) may be used to trigger and/or reset the braking assembly. Thus the EMR may comprise, radio waves, i.e. short or long wave radio waves, light waves, e.g. infra red light, visible light, UV light or any combination thereof. Preferably the light source comprises an infra red light source.

An EMR sensor may be positioned in any reasonable location on the wheel assembly, preferably the sensor is positioned in a well exposed position towards the upper part wheel assembly in its normal “in use” position.

In a preferred embodiment of the invention, the braking mechanism of the invention comprises a latch, which is operably linked to the sensor. An inner portion of the wheel comprises recessed toothed region, positioned such that, when desired, the latch may engage with one or more of the teeth. Thus, when the brake is in the inoperable position, the latch is closed and the wheel and the recessed toothed portion freely rotates. When the latch is triggered, it engages with a toothed region of the recessed portion of the wheel. The continued rotation of the wheel and the engaged latch moves the brake from an inoperable position to an operable and braking position.

Thus, according to a further aspect of the invention we provide a vehicle braking assembly for a wheel which comprises a braking member arranged to move relative to the main body of the wheel between an inoperative and an operative position, blocking means adapted to prevent the braking member from moving to an operative position and trigger means adapted to activate the braking member to move to an operative position characterised in that the trigger means comprises a latch which is adapted to engage with a toothed portion of the body of the wheel.

Any conventionally known blocking means may be utilised. However, preferentially, the blocking means will comprise a resilient biasing member which is adapted to urge the braking member into the inoperable position. Preferably, the biasing member will comprise a resilient spring, e.g. a torsion spring. The spring is preferably situated adjacent or around the axle of the wheel assembly. In an especially preferred embodiment the wheel assembly may be provided with an axial housing for resilient spring. Thus, in use, the spring biasing means will retain the brake in the inoperable position until the trigger is activated.

It will be understood by one skilled in the art that the vehicle wheel assembly provided with a latch assembly as hereinbefore described may comprise any conventionally trolley or cart wheel which requires a braking mechanism. However, preferentially, this aspect of the invention comprises a vehicle wheel assembly provided with a latch assembly wherein the vehicle wheel assembly is an assembly comprising a sensor as hereinbefore described.

Preferentially, the latch is adapted to operate in a radial direction and thus, the recess portion of the wheel is in a substantially circumferential position. Although it will be understood that the recess which co-operates with the latch may be positioned such that the latch moves radially, rather than circumferentially. However, circumferential movement of the latch is preferred.

Furthermore, the braking system will operate with a single toothed recess portion the reaction time to the trigger is faster if the assembly is provided with a plurality of toothed recesses.

In the braking assembly of the invention the latch is preferably operated by a solenoid, electric motor, stepper motor, etc.

It is a particular advantage of the present invention that the braking mechanism does not require to be manually reset. Thus, after the solenoid and latch mechanism has been triggered so as to activate the breaking mechanism, a second EMR source may be provided which acts as a resetting beam, e.g. triggering the solenoid, motor and/or bellows to revert to its rest position. Thus the action of the aforementioned biasing means which urges the braking mechanism into an inoperable position, acts to reset the assembly without need for manual interference.

Furthermore, in a retail environment that has, for example, an EMS tagging security system, such an EMS system may be linked to an EMR source transmitter as hereinbefore described, thus, for example sending a brake triggering message to braking assembly device on the wheel causing the brake to activate immediately.

The solenoid or motor may, preferably be provided with a support power supply e.g. in the form of a battery and a programmable integrated chip. It is a further advantage of the present invention to provide a wheel assembly which is also adapted to act as a generator.

Thus, in a further aspect of the invention we provide a vehicle wheel assembly adapted to act as a power generator comprises a fixed body member and a rotatably mounted wheel member characterised in that one of the body member and the wheel member is provided with a stator and the other member is provided with a plurality of permanent magnets which are of alternating polarity.

In a preferred embodiment of the invention, the stationary portion of the wheel assembly e.g. the portion housing the latch assembly, may be provided with a stator and the rotatable portion of the wheel assembly e.g. the wheel itself may be provided with one or more permanent magnets. Preferentially the wheel is provided with a plurality of permanent magnets which are of alternating polarity. Thus, in use, rotation of the wheel causes the permanent magnets to pass the stator and generate an electromagnetic field current.

It will be understood by one skilled in the art that the vehicle wheel assembly provided with a power generator as hereinbefore described may comprise any conventional carriage or cart wheel which requires a power source and/or battery recharge system. However, preferentially, this aspect of the invention comprises a vehicle wheel assembly provided with a power generator wherein the vehicle wheel assembly is an assembly comprising a sensor as hereinbefore described.

Preferably, the stator is linked to means for recharging a battery and/or means for storing the power generated. It will be understood by one skilled in the art that this aspect of the invention may utilise a plurality of permanent magnets in the latch housing and a stator in the rotatable wheel.

Furthermore, this aspect of the invention is novel per se and may therefore be used in conventionally known trolley wheels or castors which require a power source.

The braking assembly of the invention is advantageous in that, inter alia, it is capable of operating under the influence of, for example, a radio signal, infra red signal, etc. Therefore, not only can the assembly be used in, for example, preventing a wheeled vehicle being removed from a store perimeter, it may, by the correct positioning of an EMR source, be utilised as an in-store anti-theft device.

Furthermore, the assembly of the invention is advantageous in that it does not require a power source or, if the assembly is provided with a back-up power source, e.g. in the form of a battery cell, it does not require recharging or replacing. A yet further advantage of the assembly if the invention is that it comprises means for resetting the braking assembly at an appropriate moment after the braking mechanism has been triggered.

The invention will now be described by way of example only and with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a side view of the wheel of the invention with braking member in first, inoperative position;

FIG. 2 is a side view of the wheel with braking member in second, operative position;

FIG. 3 is a front view of the wheel in the first, inoperative position;

FIG. 4 is a rear view of the wheel in the first, inoperable, position;

FIG. 5 is an internal side view of one wheel of the invention;

FIG. 6 is a side view of the braking member;

FIG. 7 is a side view of the body of the device;

FIG. 8 is an internal side view of the internal face of a second wheel;

FIG. 9 is a view of the wheel through line 1 showing both rotor and stator;

FIG. 10 is a sectional view of the wheel showing a standard rubber tyre or a travelator (walkway) wheel; and

FIG. 11 is a view of an emitter of a twin beam showing the general effect on the wheel.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT EMBODIMENTS

In the illustrated embodiment there is provided a castor 1 having connection means to the vehicle through forks and a bolt arrangement that allows rotation between the wheel and the vehicle. From the side view in FIG. 1 there is also seen a wheel 3 which rotates about the axle 4 and brake member 5 which is shown here in its first or non braking position and in FIG. 2 in its second or braking position. In FIG. 3 (viewing the device from the front) there is provided two wheels 3 a and 3 b within the castor and a body 6 that will remain fixed in relation to the castor. In such cases where there is a fixed central body it is possible to have the fixing means to the vehicle from the fixed body but for strength reasons this is unlikely to be the preferred option. The fixed body allows for the inclusion of the electronic components of the device including a light receiver 7 (see FIG. 4) if the device is operated by infrared means.

There is also provided in the body a slot 8 that allows for the rotation of the brake member from its first to its second position. A view of the back, trailing aspect, of the castor is shown in FIG. 4.

When the device is triggered there is engagement between the braking member 5 and wheel 3 a. There is provided in wheel 3 a a toothed connection means 9 which in the preferred embodiment is in a recess shown in FIGS. 5, 10 a and 10 b. As the wheel will be rotating as part of normal use, when the latch 10 is operated around pivot point 11 as shown in FIG. 6 there will be a connection between tooth and latch which will drive the brake member to rotate from its first to its second and triggered position. The braking member also includes the brake foot 12 which comes between the wheel and the ground in the braking position. There is provided within the body the slot 8 but this is limited in length to stop the brake member from rotating through too great an angle and become effective. There is shown on the braking member a contact point that will come against the end of the slot to prevent further rotation. There is also provided in the braking member a cut away section 14 which will allow for the provisions of a solenoid or motor 15.

In FIG. 7 there is shown a body of the castor 6 with light collector 7 and solenoid or motor 15. There is provided within a body a sealed chamber 16 which will also contain a programmable integrated chip 17 and a rechargeable support battery 18 the solenoid could then operate from within the sealed area and its required movement can be transmitted through flexible bellow 19. When triggered, the solenoid or motor 15 will extend and rotate the latch 10 around pivot point 11 to engage one of the teeth 19 within the wheel 3 a.

When the braking system is no longer required, the solenoid or motor 15 will return from its extended position and thereby allow the latch to drop out of engagement. In order to return the braking member to its first position, there is provided a spring 20 which will be overcome while the user is pushing the carriage against the tooth connection, but when there is no pushing it will bring the braking member back to its first position. There is also provided a stop section 21 in slot 8.

If the wheel is used in conjunction with a moving walkway, there will be provided on the base of the body a pad 22 which will grip the grid of the moving walkway in the usual way.

FIG. 8 shows wheel 3 b which has set into it a number of magnets 23 that will be arranged with a north pole and a south pole facing inward alternately to provide rotor as part of the generator. The stator 25, as shown in FIG. 9 being a view through line 1 with the inclusion of the stator, is coil arrangement 24 of known type. As a small wheel such as a 125 mm castor rotates often while being pushed at a reasonable walking pace it is expected that a generator of this type will provide ample power for the device's requirements. Advantageously a generator constructed in this way could have a membrane between the rotor and the stator that will prevent the ingress of dirt from damaging the workings of the stator. FIG. 10 shows the recess within wheel 3 a and two kind of tire, one conventional rubber or polyurethane 10 a and the other suitable for the walkway application 10 b.

FIG. 11 shows a likely use of the invention at the perimeter of the store car park where twin and parallel beams are emitted from a single or duel container. The programmable chip in the device will respond to different coded messages contained within the beams. In the illustration beam 26 will be recognised as a reset instruction and beam 27 as a trigger message. Therefore, and assuming that the vehicle is in area permitted by the owner, when the vehicle is being pushed out through the beams it will receive a reset message which will be ignored and then the trigger message. In response to the trigger message the solenoid or motor 15 will operate outward to rotate the latch 10 and generally engage the brake member 5 with the wheel 3 a. The solenoid or motor may only operate for a given period but then operate again if the vehicle is not pushed through the reset beam. When the device is pushed or dragged through the reset beam, then the motor will operate and the return means 20 will bring the brake member to its inoperative position. A similar operation could be achieved by the use of two radio transmitters where one signal is generally set beyond the first.

Advantageously, the same system of triggering the device can be used in the store where the device receives a message from a transmitter as it enters an area, for example a supermarket sales floor. The device will receive a number of other messages from additional emitters within the area to which it may respond to braking. The general purpose of this would be to permit a carriage to leave the stores only if it had passed through a paying point, for example a check out desk. Various timer locations can be programmed in to the chip to allow, for example, a carriage to leave within sixty second as experience has shown that people walk in and out of stores without shopping. In this way the present invention can both prevent carriages from being removed from the site but also prevent goods from being removed by carriage if they have not passed through the payment area. 

1. A wheel assembly which comprises first and second side-by-side wheel members and a main body therebetween, said main body defining a slot or groove around a portion of a periphery thereof, a braking member which is movable along said slot between a first position out of contact with said first and second wheel members and a second position in contact with one of said first and second wheel members, blocking means for preventing the braking member from moving from said first position to said second position, trigger means for activating the braking member to move to said second position, and an EMR sensor for activating the trigger means, the blocking means being arranged to reset the braking member to the first position without manual interference.
 2. The wheel assembly according to claim 1, wherein each of the first and second wheel members comprises a wheel and a wheel body, the diameter of the wheel body being less than the diameter of the wheel.
 3. The wheel assembly according to claim 2, including a fork supporting said first and second wheel members and an axle fastening means.
 4. The wheel assembly according to claim 1, including a peripheral brake foot.
 5. The wheel assembly according to claim 1, wherein the trigger mechanism includes a latch which is operably linked to the sensor.
 6. The wheel assembly according to claim 1, wherein the EMR sensor senses at least one of radio waves and light waves.
 7. The wheel assembly according to claim 6, wherein the EMR sensor senses infra red light.
 8. The wheel assembly according to claim 1, wherein the trigger means comprises a latch which is adapted to engage with a toothed portion of the body of the wheel.
 9. The wheel assembly according to claim 8, wherein an inner portion of the wheel comprises recessed toothed region, positioned such that when the trigger is activated, the latch engages with a tooth.
 10. The wheel assembly according to claim 9, wherein when the brake is in the inoperable position, the latch is closed and the wheel and the recessed toothed portion of the wheel freely rotates, and when the trigger is activated, the latch engages with a toothed region of the recessed portion of the wheel which acts to move the brake from an inoperable position to an operable position.
 11. The wheel assembly according to claim 10, wherein the latch operates in a radial direction and the toothed portion of the wheel comprises a substantially circumferential recess.
 12. The wheel assembly according to claim 11, wherein the wheel is provided with a plurality of toothed recesses.
 13. The wheel assembly according to claim 8, wherein the blocking means comprises a resilient biasing member which urges the braking member into the inoperable position.
 14. The wheel assembly according to claim 13, wherein the biasing member comprises a resilient spring.
 15. The wheel assembly according to claim 14, wherein the spring is situated adjacent or around the axle of the wheel assembly.
 16. The wheel assembly according to claim 15, wherein the wheel assembly is provided with an axial housing for the resilient spring.
 17. The wheel assembly according to claim 8, wherein the braking mechanism is adapted to be automatically reset.
 18. The wheel assembly according to claim 17, including a second EMR source is provided which acts as a resetting beam.
 19. The wheel assembly according to claim 18, wherein the second EMR source triggers a solenoid, motor and/or bellows to revert to its rest position.
 20. The wheel assembly according to claim 1, wherein the EMR sensor is operably linked to an EMS tagging security system.
 21. The wheel assembly according to claim 8, including a solenoid or motor for operating the latch.
 22. The wheel assembly according to claim 21, wherein the solenoid or motor is operably linked to a bellows.
 23. The wheel assembly according to claim 21, including a support power supply.
 24. The wheel assembly according to claim 23, wherein the support power supply is a solid state battery.
 25. The wheel assembly according to claim 21, including a programmable integrated chip to which the solenoid is connected.
 26. The wheel assembly according to claim 8, which comprises a generator.
 27. The wheel assembly according to claim 26, wherein the generator is connected to recharge the support power supply. 